A spring mass system has time period of `2` second. What should be the spring constant of spring if the mass of the block is `10 grams` ?

A spring-block system is resting on a frictionless floor as shown in the figure. The spring constant is 2.0Nm^(-1) and the mass of the block is 2.0 kg. Ignore the mass of the spring. Initially the spring is in an unstretched condition. Another block of mass 1.0 kg moving with a speed of 2.0ms^(-1) collides elastically with the first block. The collision is such that the 2.0 kg block does not hit the wall. The distance, in metres, between the two blocks when the spring returns to its unstretched position for the first time after the collision is

A block with a mass of 3.00 kg is suspended from an ideal spring having negligible mass and stretches the spring by 0.2 m . (a) What is the force constant of the spring? (b) What is the period of oscillation of the block if it is pulled down and released ?

A block with a mass of 3.00 kg is suspended from an ideal spring having negligible mass and stretches the spring by 0.2 m . (a) What is the force constant of the spring? (b) What is the period of oscillation of the block if it is pulled down and released ?

A block of mass M is kept on a smooth surface and touches the two springs as shown in the figure but not attached to the springs. Initially springs are in their natural length. Now, the block is shifted (l_(0)//2) from the given position in such a way that it compresses a spring and released. The time - period of oscillation of mass will be

The time period of oscillations of a block attached to a spring is t_(1) . When the spring is replaced by another spring, the time period of the block is t_(2) . If both the springs are connected in series and the block is made to oscillate using the combination, then the time period of the block is

A mass is suspended at the end of a spring and performs SHM with a time period 3 seconds, while the time period f same mass wih other spring is 4 second. If that mass is connected with the combination of the two springs connected in series then time period of oscillator is

A body of mass m has time period T_1 with one spring and has time period T_2 with another spring. If both the springs are connected in parallel and same mass is used, then new time period T is given as

A block of mass m is attached to one end of a mass less spring of spring constant k. the other end of spring is fixed to a wall the block can move on a horizontal rough surface. The coefficient of friction between the block and the surface is mu then the compession of the spring for which maximum extension of the spring becomes half of maximum compression is .

A vertical spring-mass system with lower end of spring is fixed, made to undergo small oscillations. If the spring is stretched by 25cm , energy stored in the spring is 5J . Find the mass of the block if it makes 5 oscillations each second.

A student working with a spring mass system finds the values of mass, spring constant and damping constant in CGS unit as 90, 4.5xx10^(+3) and 180 respectively. What will be the time period of the spring mass system ?